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下颈椎全椎板切除后生物力学特性改变机制的有限元分析 被引量:5

Finite element analysis of biomechanics mechanism for the lower cervical spine after laminectomy
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摘要 目的:探讨下颈椎全椎板切除后生物力学特性改变的机制。方法:采集1例成年健康男性志愿者下颈椎(C3~C7)的CT数据集,应用Mimics 10.01、Geomagic studio 10.0、HyperMesh 10.0、Abaqus 6.9.1等软件建立下颈椎(C3~C7)完整有限元模型、完整保留双侧关节突关节三节段(C4~C6)全椎板切除后有限元模型。模拟施加74N头颅预载荷和1.8Nm运动附加力矩,使模型产生前屈、后伸、侧屈和旋转运动,测试颈椎全椎板切除前后的运动范围和关节囊韧带、后纵韧带在各种加载方式下的拉力。结果:C4~C6全椎板切除后即刻颈椎屈伸、侧弯和旋转的运动范围与完整状态下比较均没有增加,但C4~C6节段之间的关节囊韧带和后纵韧带在各种加载方式下受到的拉力均增大。结论:完整保留双侧关节突关节的全椎板切除术不会对下颈椎即时稳定性造成影响,但关节囊韧带和后纵韧带承受着超正常生理负荷。 Objective:To investigate the biomechanics mechanism for the lower cervical spine after laminectomy.Method:CT scans were performed on a healthy adult male volunteer.Mimics 10.01,Geomagic studio 10.0,HyperMesh 10.0 and Abaqus 6.9.1 softwares were used to establish the intact model of C3-CT.The model was subjected to three-level (C4-C6) laminectomy.The skull preload of 74N and torsion preload of 1.8Nm was added on the model,which simulated flexion,extension,lateral bending and axial rotation.The immediate biomechanics mechanism of facet capsule and posterior longitudinal ligament of cervical spine after laminectomy was analyzed.Result:Under different loading,the immediate stability after C4-C6 laminectomy remained unchanged compared with intact specimen,however the stress of facet capsule and posterior longitudinal, ligament in C4-C6 under different load increased signifieantly.Conclusion:Lamineetomy without removal of bilateral facet joints do not have effect on the immediate stability of subaxial cervical spine ,however the facet capsule and posterior longitudinal ligament sustain excessive load. [ Key words ]
作者 张辉 段扬 刘成龙 张力 闵少雄 靳安民
机构地区 南方医科大学珠江医院骨科中心
出处 《中国脊柱脊髓杂志》 CSCD 北大核心 2012年第1期54-58,共5页 Chinese Journal of Spine and Spinal Cord
关键词 颈椎 全椎板切除术 有限元 生物力学 Cervical spine Laminectomy Finite element Biomeehanics
分类号 R687.3 [医药卫生—骨科学] R318.01 [医药卫生—生物医学工程]
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参考文献11

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二级参考文献14

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共引文献5

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二级引证文献23

中国脊柱脊髓杂志
2012年 第1期

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